The Knowledge Base provides access to documents and information about the environmental effects of marine renewable energy, supporting the OES-Environmental initiative. Relevant documents from around the world are compiled into a user-friendly table that displays all content available in Tethys. Results can be narrowed using the keyword filters on the right, or with search terms entered in the text box, including targeted searches (e.g., org:DOE, author:copping). Content may also be sorted alphabetically by clicking on column headers. Some entries will appear on the next page.
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Title | Author | Date Sort ascending | Content Type | Technology | Stressor | Receptor |
---|---|---|---|---|---|---|
Behavioural responses in a congested sea: an observational study on a coastal nest-guarding fish | Mascolino, S.; Mariani, S.; Benvenuto, C. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Noise | Fish | |
Turbines’ effects on water renewal within a marine tidal stream energy site | Guillou, N.; Thiébot, J.; Chapalain, G. | Journal Article | Marine Energy, Tidal | Changes in Flow | ||
A fundamental coupling methodology for modeling near-field and far-field wave effects of floating structures and wave energy devices | Stratigaki, V.; Troch, P.; Forehand, D. | Journal Article | Wave, Marine Energy | Changes in Flow | Physical Environment | |
Vertical Distribution of Juvenile Salmon in a Large Turbid River | Jump, S.; Courtney, M.; Seitz, A. | Journal Article | Marine Energy, Riverine | Collision, Habitat Change | Fish | |
The trade-off between tidal-turbine array yield and environmental impact: A habitat suitability modelling approach | du Feu, R.; Funke, S.; Kramer, S.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow | Invertebrates | |
An agent-based model to predict fish collisions with tidal stream turbines | Rossington, K.; Benson, T. | Journal Article | Marine Energy, Tidal | Collision | Fish | |
Potential effects of deep seawater discharge by an Ocean Thermal Energy Conversion plant on the marine microorganisms in oligotrophic waters | Giraud, M.; Garçon, V.; de la Broise, D.; et al. | Journal Article | Marine Energy, OTEC | Changes in Flow | Physical Environment, Water Quality | |
The impacts of tidal energy development and sea-level rise in the Gulf of Maine | Kresning, B.; Hashemi, M.; Neill, S.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow | Physical Environment, Human Dimensions, Climate Change | |
Changes in Relative Fish Density Around a Deployed Tidal Turbine during on-Water Activities | Staines, G.; Zydlewski, G.; Viehman, H. | Journal Article | Marine Energy, Tidal | Avoidance | Fish | |
The Expected Shoreline Effect of a Marine Energy Farm Operating Close to Sardinia Island | Onea, F.; Rusu, E. | Journal Article | Marine Energy, Wave, Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment | |
Analysis of array spacing on tidal stream turbine farm performance using Large-Eddy Simulation | Ouro, P.; Ramírez, L.; Harrold, M. | Journal Article | Marine Energy, Tidal | Changes in Flow | ||
The importance of underwater sounds to gadoid fishes | Hawkins, A.; Picciulin, M. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Noise | Fish, Demersal Fish | |
Future policy implications of tidal energy array interactions | Waldman, S.; Weir, S.; Murray, R.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow | Human Dimensions, Legal & Policy | |
3D modelling of the impacts of in-stream horizontal-axis Tidal Energy Converters (TECs) on offshore sandbank dynamics | Chatzirodou, A.; Karunarathna, H.; Reeve, D. | Journal Article | Marine Energy, Tidal | Changes in Flow | Physical Environment | |
Using dose–response functions to improve calculations of the impact of anthropogenic noise | Tyack, P.; Thomas, L. | Journal Article | Marine Energy, Wind Energy | Noise | Marine Mammals | |
An artificial neural network model of coastal erosion mitigation through wave farms | Rodriguez-Delgado, C.; Bergillos, R.; Iglesias, G. | Journal Article | Wave, Marine Energy | Changes in Flow | Physical Environment, Human Dimensions | |
Measuring the hydraulic effect of hydrokinetic energy extraction in the Tanana River, Alaska | Edgerly, E.; Ravens, T. | Journal Article | Riverine, Marine Energy | Changes in Flow | Physical Environment | |
Simulation Study of Potential Impacts of Tidal Farm in the Eastern Waters of Chengshan Cape, China | Liu, X.; Yuan, P.; Wang, S.; et al. | Journal Article | Tidal, Marine Energy | Changes in Flow | Physical Environment | |
Experimental and Numerical Investigation of Wake Interactions of Marine Hydrokinetic Turbines | Gotelli, C.; Musa, M.; Guala, M.; et al. | Journal Article | Marine Energy, Riverine | Changes in Flow | Ecosystem Processes | |
Volume-Based Assessment of Erosion Patterns around a Hydrodynamic Transparent Offshore Structure | Welzel, M.; Schendel, A.; Schlurmann, T.; et al. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment | |
Examining the hearing abilities of fishes | Popper, A.; Hawkins, A.; Sand, O.; et al. | Journal Article | Marine Energy | Noise | Fish, Human Dimensions, Environmental Impact Assessment | |
Application of the actuator disc theory of Delft3D-FLOW to model far-field hydrodynamic impacts of tidal turbines | Ramos, V.; Carballo, R.; Ringwood, J. | Journal Article | Tidal, Marine Energy | Changes in Flow | Physical Environment | |
Interaction between hydrokinetic turbine wakes and sediment dynamics: array performance and geomorphic effects under different siting strategies and sediment transport conditions | Musa, M.; Hill, C.; Guala, M. | Journal Article | Marine Energy, Riverine | Changes in Flow | Physical Environment, Sediment Transport | |
Sound exposure level as a metric for analyzing and managing underwater soundscapes | Martin, S.; Morris, C.; Bröker, C.; et al. | Journal Article | Marine Energy | Noise | Human Dimensions, Environmental Impact Assessment, Recreation & Tourism | |
Acoustic impact of a wave energy converter in Mediterranean shallow waters | Buscaino, G.; Mattiazzo, G.; Sannino, G.; et al. | Journal Article | Marine Energy, Wave | Noise | Fish | |
Over or under? Autonomous sensor fish reveals why overshot weirs may be safer than undershot weirs for fish passage | Pflugrath, B.; Boys, C.; Cathers, B.; et al. | Journal Article | Riverine, Marine Energy | Collision | Fish | |
A proteomic analysis of the statocyst endolymph in common cuttlefish (Sepia officinalis): an assessment of acoustic trauma after exposure to sound | Solé, M.; Monge, M.; André, M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Dual wave farms for energy production and coastal protection under sea level rise | Rodriguez-Delgado, C.; Bergillos, R.; Iglesias, G. | Journal Article | Wave, Marine Energy | Changes in Flow | Physical Environment, Human Dimensions, Climate Change | |
Impact of pile-driving on Hector's dolphin in Lyttelton Harbour, New Zealand | Leunissen, E.; Rayment, W.; Dawson, S. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Avoidance, Noise | Marine Mammals, Cetaceans | |
Localised anthropogenic wake generates a predictable foraging hotspot for top predators | Lieber, L.; Nimmo-Smith, W.; Waggitt, J.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Changes in Flow | Birds, Seabirds | |
Providing ecological context to anthropogenic subsea noise: Assessing listening space reductions of marine mammals from tidal energy devices | Pine, M.; Schmitt, P.; Culloch, R.; et al. | Journal Article | Marine Energy, Tidal | Noise | Marine Mammals, Pinnipeds | |
An overview of fish bioacoustics and the impacts of anthropogenic sounds on fishes | Popper, A.; Hawkins, A. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Noise | Fish | |
Wave farm impacts on coastal flooding under sea-level rise: A case study in southern Spain | Bergillos, R.; Rodriguez-Delgado, C.; Iglesias, G. | Journal Article | Marine Energy, Wave | Changes in Flow | Physical Environment, Human Dimensions, Climate Change | |
Irregular wave validation of a coupling methodology for numerical modelling of near and far field effects of wave energy converter arrays | Fernández, G.; Stratigaki, V.; Troch, P. | Journal Article | Marine Energy, Wave | Changes in Flow | Physical Environment, Water Quality | |
The impact of energy extraction of wave energy converter arrays on wave climate under multi-directional seas | Tay, Z.; Venugopal, V. | Journal Article | Wave, Marine Energy | Changes in Flow | Physical Environment | |
Optimisation of tidal turbine array layouts whilst limiting their hydro-environmental impact | Phoenix, A.; Nash, S. | Journal Article | Tidal, Marine Energy | Changes in Flow | Physical Environment | |
The effect of arrays of wave energy converters on the nearshore wave climate | Atan, R.; Finnegan, W.; Nash, S.; et al. | Journal Article | Wave, Marine Energy | Changes in Flow | Physical Environment | |
Dual wave farms and coastline dynamics: The role of inter-device spacing | Rodriguez-Delgado, C.; Bergillos, R.; Iglesias, G. | Journal Article | Wave, Marine Energy | Changes in Flow | Sediment Transport, Physical Environment, Human Dimensions, Climate Change | |
Modelling impacts of tidal stream turbines on surface waves | Li, X.; Li, M.; Jordan, L.; et al. | Journal Article | Tidal, Marine Energy | Changes in Flow | Physical Environment | |
Wake effect assessment of a flap type wave energy converter farm under realistic environmental conditions by using a numerical coupling methodology | Tomey-Bozo, N.; Babarit, A.; Murphy, J.; et al. | Journal Article | Wave, Marine Energy | Changes in Flow |
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